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Phasepy: A Python based framework for fluid phase equilibria and interfacial properties computation

Gustavo Chaparro, Andrés Mejı́a

2020Journal of Computational Chemistry29 citationsDOI

Abstract

Phasepy is a Python based package for fluid phase equilibria and interfacial properties calculation from equation of state (EoS). Phasepy uses several tools (i.e., NumPy, SciPy, Pandas, Matplotlib) allowing use Phasepy under Jupyter Notebooks. Phasepy models phase equilibria with the traditional ϕ-γ and ϕ-ϕ approaches, where ϕ (fugacity coefficient) can be modeled as a perfect gas, virial gas or EoS fluid, whereas γ (activity coefficient) can be described by conventional models (NRTL, Wilson, Redlich-Kister expansion, and the group contribution modified-UNIFAC). Interfacial properties are based on the square gradient theory couple to ϕ-ϕ approach. The available EoSs are the cubic EoS family extended to mixtures through the quadratic, modified-Huron-Vidal, and Wong-Sandler mixing rules. Phasepy allows to analyze phase stability, compute phase equilibria, interfacial properties, and optimize their parameters for vapor-liquid, liquid-liquid, and vapor-liquid-liquid equilibria for multicomponent mixtures. Phasepy implementation, and robustness are illustrated for binary and ternary mixtures.

Topics & Concepts

Non-random two-liquid modelThermodynamicsUNIFACTernary operationFugacityComputationVirial coefficientStatistical physicsQuadratic equationActivity coefficientChemistryPhase equilibriumPhase (matter)MathematicsPhysicsComputer sciencePhysical chemistryAlgorithmProgramming languageOrganic chemistryGeometryAqueous solutionPhase Equilibria and Thermodynamicsnanoparticles nucleation surface interactionsCatalysis and Oxidation Reactions
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